Sanjay Vidyadharan

About: Sanjay Vidyadharan

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Topics Handling
Course Name Lesson Name Complexity Length
Testability of VLSI Lecture 14: Fault Tolerant VLSI Design 87 mins
Testability of VLSI Lecture 13: Analog and Mixed-Signal Testing 98 mins
Testability of VLSI Lecture 12: Built-in Self-Test 88 mins
Testability of VLSI Lecture 11: Design for Testability 85 mins
Testability of VLSI Lecture 10: Delay Testing 86 mins
Testability of VLSI Lecture 09: Testing of Memory 109 mins
Testability of VLSI Lecture 08: Testing of Sequential Circuits 95 mins
Testability of VLSI Lecture 07: Automatic Test Pattern Generation for Combinational Circuits 79 mins
Testability of VLSI Lecture 6B: Introduction to Automatic Test Pattern Generation 40 mins
Testability of VLSI Lecture 6A: Testability Measures 58 mins
Testability of VLSI Lecture 5: Fault Simulation 91 mins
Advanced VLSI Design Lecture 5 Static Timing Analysis ( 2023-24) 96 mins
Testability of VLSI Lecture 4: Logic Simulation 90 mins
Testability of VLSI Lecture 3: Fault Collapsing 95 mins
Introduction to Radars Lecture 4: MTI and Pulsed Doppler Radars 34 mins
Testability of VLSI Lecture 2: Fault Modelling 101 mins
Testability of VLSI Lecture 1: Introduction to VLSI Testing 86 mins
Introduction to Radars Lecture 3: Unmodulated CW Radar 23 mins
Introduction to Radars Lecture 2: Modulated CW Radars 24 mins
Introduction to Radars Lecture 1: The Radar Range Equation 39 mins
VLSI Design Using LT SPICE Lesson 1: Basics of LT SPICE 89 mins
Analog IC Design Lecture 13: Gain Boosting and Output Amplifiers 69 mins
Advanced VLSI Design Lecture 10: Advanced VLSI Design: Arithmetic Circuits: Part-2_2022-23 80 mins
Analog IC Design Lecture 12: Stability and Oscillators 93 mins
Advanced VLSI Design Lecture 9: Arithmetic Circuits: Part-1 2022-23 85 mins
Analog IC Design Lecture 11: Operational Amplifiers 105 mins
VLSI Design Lecture 16: Arithmetic Circuits: Part-1 2022-23 114 mins
Analog IC Design Lecture 10: Feedback 113 mins
Analog IC Design Lecture 9: Frequency Response of Single Stage Amplifiers 106 mins
Analog IC Design Lecture 8: DC Voltage and DC Current Sources Part-2 78 mins
Analog IC Design Lecture 7: DC Voltage and DC Current Sources 85 mins
Analog IC Design Lecture 6: Differential Amplifiers Part-3 101 mins
Analog IC Design Lecture 5: Differential Amplifiers Part-2 116 mins
Advanced VLSI Design Lecture 4B: Static Timing Analysis 2022-S1 35 mins
Advanced VLSI Design Lecture 4A: Pipelined Registers_2022-S1 54 mins
VLSI Design Lecture 6: CMOS Inverter Static Characteristics_2022-S1 98 mins
Analog IC Design Lecture 4: Differential Amplifiers Part-1 103 mins
Analog IC Design Lecture 3: MOSFET Single Stage Amplifiers Part-2 90 mins
Analog IC Design Lecture 2: MOSFET Single Stage Amplifiers Part-1 115 mins
Analog IC Design Lecture 1: Review of MOSFET Operation 74 mins
VLSI Architecture Lecture 11: Pipelined Architecture 61 mins
VLSI Architecture Lecture 10: Timing Signals 51 mins
VLSI Architecture Lecture 9: Flowcharts to Datapath Control Design 44 mins
VLSI Architecture Lab 8: Sequential Circuit Design using Flip-flops in Xilinx 16 mins
VLSI Architecture Lecture 8: Hardware Flowcharts Part-3 47 mins
Advanced VLSI Design Lecture 14B: CMOS Scaling 18 mins
Advanced VLSI Design Lecture 14A: Deep-Submicron MOSFET operation 58 mins
VLSI Design Lecture 19: CMOS Testing 83 mins
Advanced VLSI Design Lecture 13: Interconnects 63 mins
Advanced VLSI Design Lecture 12C: Adiabatic Logic 17 mins
VLSI Design Lecture 18: Memory Design 86 mins
Advanced VLSI Design Lecture 12B: Low Power VLSI Design Part-2: Architecture, Algorithmic, and RTL Level Optimization 33 mins
Advanced VLSI Design Lecture 12A: Low Power VLSI Design Part-1: Gate Level Optimization 62 mins
VLSI Design Lecture 17: Arithmetic Circuits: Part-2 76 mins
Digital VLSI The Layout of NAND Gate in Cadence Virtuoso. DRC and LVS Check 32 mins
Advanced VLSI Design Lecture 11: Memory Design 98 mins
VLSI Design Lecture 16: Arithmetic Circuits: Part-1 73 mins
Advanced VLSI Design Lecture 10: Arithmetic Circuits: Part-2 70 mins
VLSI Design Lecture 15: Pass Transistor Logic 66 mins
Advanced VLSI Design Lecture 9: Arithmetic Circuits: Part-1 73 mins
VLSI Design Lecture 14: Adiabatic Logic 27 mins
VLSI Design Lecture 13: Domino Logic 43 mins
VLSI Architecture Lab 7: Applications of Decoder, Encoder, and Multiplexer in Xilinx Verilog 24 mins
VLSI Architecture Lecture 7: Hardware Flow Chart-Part-2 53 mins
VLSI Architecture Lab 6: Multiplexer Design using Verilog in Xilinx 16 mins
VLSI Architecture Lecture 6: Hardware Flow Chart Part-1 68 mins
Advanced VLSI Design Lecture 8: Interfacing Circuits – Part-3 Level Shifters and IO PADS 75 mins
VLSI Design Demo on Dynamic Full Adder in LT SPICE Using 180 nm TSMC Files 25 mins
VLSI Design Lecture 12: Dynamic Logic 60 mins
VLSI Architecture Lab 5: Decoder and Full Adder Design using Verilog in Xilinx 14 mins
VLSI Architecture Lecture 5: ALU Design and Microprocessor Design 46 mins
Digital Design 2021 Lecture 30: Demonstration of RTL, DTL, CMOS NAND, and NOR in LT SPICE 13 mins
Digital Design 2021 Lecture 29: Digital Logic Families 44 mins
VLSI Architecture Lab 4: Handling multi-bit data and Concatenation in Verilog 24 mins
VLSI Architecture Lecture 4: Instruction Set Architecture and MIPS Instructions 68 mins
Digital Design 2021 Lecture 28: Programmable Logic Devices 24 mins
Digital Design 2021 Lecture 27: Memory 32 mins
VLSI Architecture Lab 3: Initialization in Verilog using XILINX ISE E 17 mins
VLSI Architecture Lecture 3: Computer Arithmetic Algorithms and Implementations 53 mins
Digital Design 2021 Lecture 26: ADC and DAC 43 mins
Digital Design 2021 Lecture 25: Applications of Sequential Circuits 27 mins
Advanced VLSI Design Lecture 7B: Part-2, Schmitt Triggers 56 mins
Advanced VLSI Design Lecture 7A: Interfacing Circuits – Part-1, Synchronizer, and Arbiters 31 mins
VLSI Architecture Lab 2: Implementation of Adders in Xilinx ISE Verilog Data Flow Level Modeling 20 mins
VLSI Architecture Lecture 2: Microprocessor Architecture 54 mins
VLSI Design Lecture 11: Layout of Static CMOS Circuits 68 mins
Digital Design 2021 Lecture 24: Asynchronous Counters 17 mins
Digital Design 2021 Lecture 23: Synchronous Counters 40 mins
Advanced VLSI Design Lecture 6: Latch Based Clocking & Asynchronous Clocking 83 mins
VLSI Design Lecture 10: Delays in Complex CMOS Static Logic Circuits 44 mins
VLSI Design Lecture 9: CMOS Static Logic 60 mins
VLSI Architecture Lab 1: Implementation of Majority Circuit in Xilinx ISE 26 mins
VLSI Architecture Lecture 1: Introduction to VLSI Architecture 55 mins
Digital Design 2021 Lecture 22: Registers 27 mins
Digital Design 2021 Lecture 21: State Table Reduction & Implication Chart 36 mins
Advanced VLSI Design Lecture 5B : Clock Generation and Distribution Part-2 30 mins
Advanced VLSI Design Lecture 5B: Clock Generation and Distribution Part-1 62 mins
VLSI Design Lecture 8: CMOS Inverter Transient Response 67 mins
VLSI Design Lecture 7: MOS Capacitance 18 mins
Digital Design 2021 Lecture 20: Sequence Detector 17 mins
Digital Design 2021 Lecture 19: Sequential Circuit Design 38 mins
Advanced VLSI Design Lecture 4B: Static Timing Analysis 27 mins
Advanced VLSI Design Lecture 4A: Pipelined Registers 50 mins
Digital Design 2021 Lecture 18: Sequential Logic Flipflops 37 mins
Digital Design 2021 Lecture 17: Sequential Logic, SR, D Latch 35 mins
Advanced VLSI Design Lecture 3: Dynamic Registers 90 mins
VLSI Design Lecture 6: CMOS Inverter Static Characteristics 88 mins
VLSI Design Lecture 5: CMOS Scaling 16 mins
VLSI Design Lecture 4: CMOS Technology 60 mins
Advanced VLSI Design Demonstration 2: Latch and Flip-flops 13 mins
Advanced VLSI Design Lecture 2: Latch and Flip-flops 80 mins
VLSI Design Lecture 3: Deep-Submicron MOSFET operation 18 mins
VLSI Design Lecture 2: Review of MOSFET Operation 75 mins
Advanced VLSI Design Demonstration 1: Installation of TSMC 180 nm Technology Files in LT SPICE 23 mins
Advanced VLSI Design Lecture 1: Introduction to VLSI Design 62 mins
VLSI Design Demonstration 1: Installation of TSMC 180 nm Technology Files in LT SPICE 23 mins
VLSI Design Lecture 1: Introduction to VLSI Design 62 mins
VLSI Design Using LT SPICE Lesson 6: SRAM Design 29 mins
VLSI Design Using LT SPICE Lesson 5: Pass Transistor Logic Design 22 mins
VLSI Design Using LT SPICE Lesson 4: Dynamic and Domino CMOS Design 26 mins
VLSI Design Using LT SPICE Demonstration 4: D-Latch Design 12 mins
VLSI Design Using LT SPICE Lesson 3: Static CMOS Design 29 mins
Digital Design 2021 Lecture 16: Multiplexers and De-multiplexers 28 mins
Digital Design 2021 Lecture 15: Decoders and Encoders 45 mins
VLSI Design Using LT SPICE Demonstration 3: VCO Design 9 mins
VLSI Design Using LT SPICE Lesson 2: Inverter Design 48 mins
VLSI Design Using LT SPICE Demonstration 2: TSMC 180 nm NMOS Characterization Transfer Characteristics & Output Characteristics in LT Spice
VLSI Design Using LT SPICE Demonstration 1: Importing TSMC 180 nm CMOS technology file into LT SPICE 16 mins
VLSI Design Using LT SPICE Lesson 1: Introduction to CMOS 57 mins
Digital Design 2021 Lecture 14: Multipliers and Magnitude Comparators 25 mins
Digital Design 2021 Lecture 13: Combinational Logic and Arithmetic Circuits 55 mins
Digital Design 2021 Lecture 12: Hazards in Digital Circuits 13 mins
Digital Design 2021 Lecture 11: Logic Gate Realization 56 mins
Digital Design 2021 Lecture 10: Quine-McCluskey (QM) Technique 49 mins
Digital Design 2021 Lecture 9: Five Variable K-Maps 24 mins
Electrical Science Tutorials Problems and Solutions BJT Circuits 20 mins
Digital Design 2021 Lecture 8: K-Maps Part 2 24 mins
Digital Design 2021 Lecture 7: K-Maps Part 1 53 mins
Electrical Science BJT Amplifiers-Part2 19 mins
Electrical Science BJT Amplifiers-Part1 38 mins
Electrical Science Introduction to BJT 35 mins
Electrical Science Tutorials Diode Rectifiers, Clippers, and Clampers 41 mins
Digital Design 2021 Lecture 6: Boolean Algebra: Part 2 28 mins
Digital Design 2021 Lecture 5: Boolean Algebra: Part 1 42 mins
Electrical Science Diode Clipper and Clamper Circuits 32 mins
Electrical Science Diode Rectifiers 52 mins
Digital Design 2021 Lecture 4: Binary Codes 37 mins
Digital Design 2021 Lecture 3: Number System Part 2 54 mins
Electrical Science Tutorials Passive Filters & Transformers 25 mins
Digital Design Lab Lab11: Implementation of Majority Circuit using 74XX, TTL Gates in Tinkercad 25 mins
Electrical Science Transformer Theory and Operation 35 mins
Electrical Science Passive Filters 40 mins
Electrical Science Tutorials Three Phase AC Circuits 24 mins
Digital Design 2021 Lecture 2: Number System Part 1 28 mins
Digital Design 2021 Lecture 1: Introduction to Digital Systems 40 mins
Digital Design 2021 Lecture 0: Introduction to Digital Design Course 9 mins
Electrical Science Three Phase AC Circuits – Part 3 35 mins
Electrical Science Three Phase AC Circuits – Part 2 25 mins
Electrical Science Three Phase AC Circuits - Part 1 37 mins
Electrical Science Tutorials Frequency Domain Analysis of RLC Circuit 42 mins
Electrical Science Resonance in AC Circuits 37 mins
Electrical Science AC Response for Parallel RLC Circuits 26 mins
Electrical Science AC Response for a Series RLC Circuits
Electrical Science Tutorials Problems and Solutions: Basics of AC Circuit 26 mins
Electrical Science AC Response for Pure Resistive, Inductive and Capacitive Circuits 24 mins
Electrical Science Introduction to AC Circuits 47 mins
Electrical Science Tutorials Problems and Solutions Second-Order Circuits 31 mins
Electrical Science Tutorials Problems and Solutions First Order Circuits 23 mins
Electrical Science Second Order Circuits, RLC series and RLC Parallel Circuits 32 mins
Electrical Science Hobby Projects Tinkercad Project: Glowing LED with Interlocking Relay, 9 V battery 7805 Regulator 7 mins
Electrical Science Hobby Projects Tinkercad Project: Glowing LED with 9 V battery 7805 Regulator and 5 V Relay 7 mins
Electrical Science Hobby Projects Tinkercad Project: Staircase Wiring 4 mins
Electrical Science Hobby Projects Tinkercad Project: Driving LED with 9 V battery and resistor 5 mins
Electrical Science Hobby Projects Introduction to Tinker cad. Simple Switch and Bulb Circuit. 9 mins
Electrical Science Tutorials Thevenin’s Norton’s, Max-Power Transform, Superposition Theorem 33 mins
Electrical Science Tutorials Mesh and Node Analysis 22 mins
Electrical Science Tutorials Problems and Solutions Electrical Sciences Power Sources 28 mins
Electrical Science First Order Circuits 42 mins
Electrical Science Inductors 37 mins
Electrical Science Capacitors 46 mins
Electrical Science Superposition Theorem 26 mins
Electrical Science Norton’s Theorem & Max Power Transform Theorem 30 mins
Electrical Science Thevenin's Theorem 28 mins
Electrical Science Mesh and Node Analysis 27 mins
Electrical Science Circuit Analysis and Kirchhoff’s Laws 30 mins
Electrical Science Basic Electrical Quantities 39 mins
Electrical Science Power Sources 34 mins
Microprocessors & Interfaces Lecture 32: 8086 Interfaces Analog-To-Digital Converters (ADC) 0808,0809,0804, Digital-To-Analog Converters 0830(DAC). 36 mins
Microprocessors & Interfaces Lecture 31: Programmable Interrupt Controller 8259A 65 mins
Microprocessors & Interfaces Lecture 30: 8253/8254 Timer: Part 2 45 mins
Microprocessors & Interfaces Lecture 29: 8253/8254 Timer: Part 1 50 mins
Microprocessors & Interfaces Lecture 28: 8255 Programmable Peripheral Interface: Part 2 34 mins
Microprocessors & Interfaces Lecture 27: 8255 Programmable Peripheral Interface: Part 1 35 mins
Microprocessors & Interfaces Lecture 26: 8086 I/O Interfacing 35 mins
Microprocessors & Interfaces Lecture 25: 8086 and 80286 Memory Interfacing: Part 3 37 mins
Microprocessors & Interfaces Lecture24: 8086 Bus Cycle, Machine Cycle, and Instruction Cycle 50 mins
Microprocessors & Interfaces Lecture 23: 8088 Memory Interface Part-2 22 mins
Microprocessors & Interfaces Lecture 22: 8086 Memory Interface: Part-1 34 mins
Microprocessors & Interfaces Lecture 21: 8086 Interrupts 50 mins
Microprocessors & Interfaces Lecture 20: 8086 Adress Decoding and Bus De-Multiplexing 49 mins
Microprocessors & Interfaces Lecture-19: 8086 Memory Organisation 38 mins
Microprocessors & Interfaces Lecture 18: 8086 Pin Diagram 34 mins
Microprocessors & Interfaces Lecture 17: 8086 Branching & Program Control Instructions: Part-2 41 mins
Microprocessors & Interfaces Lecture-15: 8086 Logical Instructions : Part-2 16 mins
Microprocessors & Interfaces Lecture 16: 8086 Branching & Program Control Instructions: Part-1 34 mins
Microprocessors & Interfaces Lecture 14: 8086 Logical Instructions: Part-1 24 mins
Microprocessors & Interfaces Lecture 13: 8086 Arithmetic Instructions: Part-2 37 mins
Microprocessors & Interfaces Lecture 12: 8086 Arithmetic Instructions : Part-1 43 mins
Microprocessors & Interfaces Lecture 11: 8086 MASM Directives: Microsoft Assembler Directives 34 mins
Microprocessors & Interfaces Lecture 10: 8086 Instructions Set: Part-4 21 mins
Microprocessors & Interfaces Lecture 9: 8086 Instructions Set : Part-3 30 mins
Microprocessors & Interfaces Lesson 8: 8086 Instructions Set : Part-2 51 mins
Microprocessors & Interfaces Lecture 7 : 8086 Instructions Set : Part-1 57 mins
Microprocessors & Interfaces Lecture 6: Addressing Modes & OP-Code, Problems, and Solutions 47 mins
Microprocessors & Interfaces Lecture 5: 8086 Addressing Modes and OP-Code 61 mins
Microprocessors & Interfaces Lecture 4: 8086 Architecture, Memory Segmentation, Physical Address generation, Bus Interface Unit 46 mins
Microprocessors & Interfaces Lecture 3: Overview of 8086 Microprocessor and Explanation of PIN Diagram 43 mins
Microprocessors & Interfaces Lecture 2: Overview of 8086 Microprocessor 44 mins
Microprocessors & Interfaces Lecture 1: Introduction 23 mins
Microprocessors & Interfaces Lab Lab 11: Program to Display numbers in LED Display 7 mins
Microprocessors & Interfaces Lab Lab 10: Program to Control Traffic Light System 13 mins
Microprocessors & Interfaces Lab Lab 9: Program to Control Stepper Motor 23 mins
Microprocessors & Interfaces Lab Lab 8: 8086 Interrupts 22 mins
Microprocessors & Interfaces Lab Lab 07: ALP for Reversal of String 21 mins
Microprocessors & Interfaces Lab Lab 6: Arranging numbers in ascending order and Matrix addition 19 mins
Microprocessors & Interfaces Lab Lab 5: Programming with 8086 EMU Emulator , ALP for Average of N Numbers and Fibonacci Series 11 mins
Microprocessors & Interfaces Lab Lab 4: Addressing Modes in 8086 30 mins
Microprocessors & Interfaces Lab Lab 3: Temperature Conversion from Fahrenheit to Celcius and Factorial of a Number 26 mins
Microprocessors & Interfaces Lab Lab 2: 8086 Arithmetic Operations 14 mins
Microprocessors & Interfaces Lab Lab 1: Introduction to 8086 Emulator 37 mins
Microprocessors and Interfaces Tutorials Tutorial 13: 8086 Interfaces 8255A PPI/8254 Timer and 8259A PIC 32 mins
Microprocessors and Interfaces Tutorials Tutorial 12: 36 mins
Microprocessors and Interfaces Tutorials Tutorial 11: 8086, 8088, and 80286 Memory Interface 40 mins
Microprocessors and Interfaces Tutorials Tutorial 10: 8086 Memory Interface and Address De-coding 28 mins
Microprocessors and Interfaces Tutorials Tutorial 9: 8086 Memory Organisation and Interrupts 30 mins
Microprocessors and Interfaces Tutorials Tutorial 8 : 8086 Branching Operations 29 mins
Microprocessors and Interfaces Tutorials Tutorial 7 : 8086 Arithmetic and Logical Operations 21 mins
Microprocessors and Interfaces Tutorials Tutorial 6 : 8086 Arithmetic Operations ALPs 41 mins
Microprocessors and Interfaces Tutorials Tutorial 5 : 8086 Data Transfer ALPs 29 mins
Microprocessors and Interfaces Tutorials Tutorial 4 : 8086 Assembly Language to Machine Language Op-code. Addition, Subtraction BCD ALP 40 mins
Microprocessors and Interfaces Tutorials Tutorial 3 : 8086 Addressing Modes and Physical Address Calculation 26 mins
Microprocessors and Interfaces Tutorials Tutorial 2 : Microprocessor Design 35 mins
Microprocessors and Interfaces Tutorials Tutorial 1 : Review of Binary arithmetic Operations 35 mins
Hobby Projects: Digital Design and Microprocessors Programming with Arduino in TinkerCad: Potentiometer Input (Analog), Bar graph, and 7-Segment Display Outputs. 15 mins
Hobby Projects: Digital Design and Microprocessors Programming with Arduino in TinkerCad: Temperature Sensor, Celsius to Fahrenheit Conversion & LCD Display. 11 mins
Hobby Projects: Digital Design and Microprocessors Implementation of Analog to Digital Converter ADC, (2-bit Digital Output ) using Arduino in TinkerCad 13 mins
Hobby Projects: Digital Design and Microprocessors Programming with Arduino in TinkerCad : Switch-controlled Bulb and Blinking LED. 20 mins
Hobby Projects: Digital Design and Microprocessors Introduction to TinkerCad 30 mins
Hobby Projects: Digital Design and Microprocessors Quiz Buzzer Circuit with 7400 NAND Gates in LT SPICE 8 mins
Hobby Projects: Digital Design and Microprocessors Debouncing Switch with 7400 NAND Gates in LT SPICE 20 mins
Digital VLSI TSMC 180 nm NMOS Characterization Transfer Characteristics & Output Characteristics in LT Spice 10 mins
Digital VLSI TSMC 180 nm CMOS Full Adder in LT Spice, Measurement of Delay and Power, Sizing of Transistors of 28-T CMOS Full Adder 25 mins
Digital VLSI Importing PTM 7nm, 16 nm, 22nm CMOS Technology files Into Virtuoso Cadence® 10 mins
Digital VLSI Measurement of Power and Delay Analysis of CMOS digital Circuits in Cadence. 56 mins
Digital VLSI Importing Stanford University CNFET model into Cadence Virtuoso 15 mins
Digital VLSI Importing CMOSS 60 nm, 45 nm, 22nm, 16nm, 10 nm, and 7nm Technology Files into LT SPICE 10 mins
Digital VLSI 180 nm CMOS Inverter Characterization with LT SPICE 16 mins
Digital VLSI Low Power Techniques for Digital VLSI Circuits 45 mins
Analog Electronics with Operational Amplifiers Op-Amp based VCO 16 mins
Analog Electronics with BJT Differential Amplifier 23 mins
Analog Electronics with BJT Common Base (CB) Amplifier and Cascode Amplifier 19 mins
Analog Electronics with BJT Common Collector (CC) Amplifier and CE-CC Cascade Amplifier 33 mins
Analog Electronics with BJT Common Emitter (CE) Amplifier Design 61 mins
TCAD Sentaurus Introduction to Sentaurus TCAD : Part-2 77 mins
TCAD Sentaurus Introduction to Sentaurus TCAD-Part 1 3 mins
Analog Communication Lecture 2 : Super Heterodyne Receivers 32 mins
Analog Communication Lecture 1 : Amplitude Modulation 63 mins
Electrical Machines Lecture 2 : DC Motors 32 mins
Electrical Machines Lecture 1 : DC Generators Easy 60 mins
Digital Design Lab Lab 10 : Sequential Circuit Design using Flip-flops in Xilinx ISE 15 mins
Digital Design Lab Lab 9 : Combinational Circuit Design using Decoders and Multiplexers in Xilinx ISE 13 mins
Digital Design Lab Lab 8 : Sequential Circuit Design using D and JK Flipflops in LT SPICE 12 mins
Digital Design Lab Lab 7 : Combinational Circuit Design using Decoders and Multiplexers in LTSPICE 10 mins
Digital Design Lab Lab 6 : Dataflow Modelling Implementation of 4-Bit Adder & BCD Adder in Xilinx ISE 25 mins
Digital Design Lab Lab 5 : Dataflow Modelling and Implementation of Adders in Xilinx ISE 35 mins
Digital Design Lab Lab 4 : Introduction to Verilog and Implementation of Majority Circuit in Xilinx ISE 22 mins
Digital Design Lab Lab 3 : Four-Bit Parallel Adder & BCD Adder in LT SPICE 16 mins
Digital Design Lab Lab 2 : Parity Generator and Adders with LT Spice using 7400 Series TTL Gates 25 mins
Digital Design Lab Lab 1 : Introduction to LT SPICE and Implementation of Majority Circuit 53 mins
Digital Design Tutorials Tutorial 13 : Binary Multiplication 26 mins
Digital Design Tutorials Tutorial 12: CMOS Implementation 26 mins
Digital Design Tutorials Tutorial 11 : Memory and PLD 27 mins
Digital Design Tutorials Tutorial 10 : State Table Reduction 25 mins
Digital Design Tutorials Tutorial 9 : Sequence Detector 32 mins
Digital Design Tutorials Tutorial 8 : Sequential Circuit Design 27 mins
Digital Design Tutorials Tutorial 7 : Flip-Flops 30 mins
Digital Design Tutorials Tutorial 6 : Hazards, Design using Decoders a Multiplexers 24 mins
Digital Design Lecture 29: Booth Multiplier 28 mins
Digital Design Lecture 28: Multiplier 28 mins
Digital Design Lecture 27: Programmable Logic Controllers and CMOS Design 37 mins
Digital Design Lecture 26: Programable Logic Devices 67 mins
Digital Design Lecture 25: Memory 37 mins
Digital Design Lecture 24: Applications of Sequential Circuits 36 mins
Digital Design Lecture 23: Synchronous Counters 90 mins
Digital Design Lecture 22: Asynchronous Counters 47 mins
Digital Design Lecture 21: Registers 42 mins
Digital Design Lecture 20: State Table Reduction 23 mins
Digital Design Lecture 19: Sequence Detector 57 mins
Digital Design Lecture 18: Sequential Circuit Design 52 mins
Digital Design Lecture 17: T & JK Flip-Flops 40 mins
Digital Design Lecture 16: D-Latches and D-Flipflops 58 mins
Digital Design Lecture 15: Sequential Logic & SR Latch 55 mins
Digital Design Lecture 14: Multiplexers and Demultiplexers 47 mins
Digital Design Lesson 13: Encoders and Decoders 50 mins
Digital Design Lecture 12: Four Bit Adders, Multipliers, and Magnitude Comparators 44 mins
Digital Design Lecture 11 : Combinational Logic and Arithmetic Circuits 40 mins
Digital Design Lecture10: Hazards and Multi-Output Circuits 54 mins
Digital Design Lecture 9: Quine-McCluskey (QM) Technique 55 mins
Digital Design Lecture 8: Five Variable K-map 43 mins
Digital Design Lesson 7: Logic Gate Realization and Design 27 mins
Digital Design Lecture 5: Two and Three Variable K-Maps 43 mins
Digital Design Lecture 6 : Four Variable K-Maps 64 mins
Digital Design Tutorials Tutorial 5 : Combinational Circuit Design 35 mins
Digital Design Tutorials Tutorial 4: Quine-McCluskey (QM) Method 44 mins
Digital Design Tutorials Tutorial 3 : Karnaugh Maps 46 mins
Digital Design Tutorials Tutorial 2 : Boolean Algebra & Logic Gates 38 mins
Digital Design Tutorials Tutorial 1 : Binary Number System 25 mins
Digital Design Lecture 4: Boolean Algebra Hard 56 mins
Digital Design Lecture 3 : Number System Part-2 Hard 50 mins
Digital Design Lecture 1 : Introduction to Digital Electronics Design  Easy 52 mins
Digital Design Lecture 2: Number Systems Part-1 Easy 56 mins
  • Dr. Sanjay Vidhyadharan is an Assistant Professor in the Electrical and Electronics Engineering group of Work Integrated Learning Programmes Division, BITS-Pilani. He graduated from Regional Engineering College (NIT), Bhopal, in 1994 and was commissioned in the Engineering branch of the Indian Air Force in Nov 1994. He served in the Indian Airforce for 22 years, working as Senior Engineering Officer, Chief Engineering Officer and Joint Director at various helicopter bases/Air HQs. He took pre-mature retirement from the IAF as Wing Commander in 2016 to pursue his passion for academics. He has immense experience in the maintenance of various kinds of helicopters.
  • He obtained his M.Tech. in Micro Electronics and VLSI Design from the Indian Institute of Technology Kharagpur in 2010. He completed his Ph.D. research work from BITS Pilani Hyderabad campus in Jan 2017-Jan 2020 and was awarded doctorate in Jun 2020.
  • Dr. Sanjay was a qualified instructor of IAF and had worked as Commanding Officer of a Premier Technical Training Institute of IAF. He has also worked as a Visiting Assistant Professor at BITS Pilani, Hyderabad Campus, from Feb 2020 to Aug 2021. His area of interest is Analog and Digital VLSI. He has published more than 20 publications in various international journals and conferences in low-power VLSI design.